![]() The Super Node is a logically centralized component, but it can be physically distributed across different systems.įacts, figures & data on the Tellus project The Super Node then compares these entries with the requirement profile for the respective use case and automatically takes over the matchmaking with suitable providers. To do this, it uses a service registry in which other providers register their services along with the performance guaranteed and security requirements fulfilled. The Super Node takes over the calculation in each case of the best route. The technical Tellus architecture now presented will make this interconnection possible – and it will be uncomplicated and automated, with guaranteed performance and security.”Ī core of the technical architecture is a hierarchical concept with a Super Node, and in addition Tellus Nodes hosted by each participant. The more modern and innovative the services, the higher the demands on this interconnection in terms of performance and security. “These require interconnection across different cloud services and data sources, all the way to the end user. Christoph Dietzel, Head of Global Products & Research at DE-CIX and Project Leader for Tellus. ![]() “Future-oriented digital services can no longer simply be executed in one location and in one data center,” explains Dr. This is intended to create a software-based networking layer (cross-domain SDN) that is based on the technical foundation of the public Internet, but that reduces complexity for connections through automatic matchmaking with appropriate providers and enables performance guarantees. On the basis of these requirement profiles, the project team has now designed the technical architecture, consisting of integrated software instances and homogeneous interfaces. These include the real-time creation of the “digital twin” of machines and plants in Industry 4.0, and the transmission of motion stimuli to robots. In a first step, the Tellus consortium defined specific use cases that are characterized by particularly high requirements in terms of the interconnection of different parties – for example, connecting to various cloud services and digital resources. The project is supported by a consortium of 10 companies and organizations, with funding of around 8.75 million Euro provided by the German Federal Ministry for Economic Affairs and Climate Action (BMWK). An operational prototype for this software-based network infrastructure is expected to be ready by the end of 2024. The project goal is to develop and deploy a Gaia-X compliant network infrastructure for critical use cases that leverages existing Internet infrastructure and adds a software layer. Frankfurt, : Tellus, the Gaia-X development project led by Internet Exchange (IX) operator DE-CIX, has reached a new milestone: The definition of the technical architecture for the existing use cases has been successfully completed.
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